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\begin{document}
\pagenumbering{Roman}
 \begin{titlepage}
  \title{\textbf{Overview of all namoptions in DALES}}
  \author{Thijs Heus \\
  Chiel van Heerwaarden \\
  Johan van der Dussen \\
  Huug Ouwersloot}
  \maketitle
 \end{titlepage}
\thispagestyle{empty}

\tableofcontents
\addtocontents{toc}{\protect}
%\listoftables
\chapter{Introduction}\label{chapter:introduction}

\pagenumbering{arabic}
\setcounter{page}{1}
This document gives an overview of all namelist options in version 4.1 of the Dutch Atmospheric Large Eddy Simulation (DALES) model. Only general information concerning these options is presented. For more detailed information about the model, the reader is referred to \citet{Heus2009}. 

\chapter{Namoptions overview}\label{chapter:namoptions}

All options that can be set for the LES experiments will be discussed in the following paragraphs. These options are listed in a separate paragraph for all name lists. For all name lists, the options are given with their default values, possible values, a description and the unit. The possible values are denoted by an $x$. The paragraphs are grouped in two sections. In the first section, the main modules are discussed. In the second section an overview of the extra modules is presented.

\section{Main modules}\label{par:mainmod}

\subsection{Namelist DOMAIN}\label{par:domain}

\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
%        \multicolumn{5}{l}{\small \it Continued from previous page}\\
%        \multicolumn{5}{c}{}\\
%        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
%        \hline &&&&\\
  }
  \tabletail{
%        &&&&\\\hline
%        \multicolumn{5}{c}{}\\
%        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{1.6cm}|p{5cm}|p{6.3cm}|l|}
  itot		& 64		& $x = n \cdot \hyperlink{nprocx}{\text{nprocx}}, \quad n \in \mathbb{N}^*$	& Number of horizontal grid points in x-direction	& -\\
  jtot		& 64		& $x = n \cdot \hyperlink{nprocy}{\text{nprocy}}, \quad n \in \mathbb{N}^*$	& Number of horizontal grid points in y-direction	& -\\
  kmax		& 96		& $x \in \mathbb{N}^*$		& Number of vertical grid points		& -\\
  xsize		& -1		& $x \in \mathbb{N}^*$		& Horizontal size of the simulated domain	& m\\
  ysize		& -1		& $x \in \mathbb{N}^*$		& Horizontal size of the simulated domain	& m\\
  xlat		& 52	& $x \in \mathbb{R}, \quad -90 \leq x \leq 90$			& Latitude					& $\,^{\circ}$\\
  xlon		& 0		& $x \in \mathbb{R}, \quad 0 \leq x \leq 360$			& Longitude					& $\,^{\circ}$\\
  xday		& 1		& $x \in \mathbb{R}, \quad 1 \leq x \leq 365$	& Number of the day				& -\\
  xtime		& 0		& $x \in \mathbb{R}, \quad 0 \leq x < 24$	& UTC time of the day				& h\\
  ksp		& \scriptsize min($\frac{3}{4}$kmax, kmax - 15)	& $x \in \mathbb{N}^*$	& Lower height of sponge layer			& -\\
\end{supertabular}
\end{center}

\newpage
\subsection{Namelist DYNAMICS}\label{par:dynamics}
\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{1.6cm}|p{4cm}|p{6cm}|l|}
  cu		& 0		& $x \in \mathbb{R}$	& Transformation velocity of the Galilei transformation in x-direction	& m s$^{-1}$\\
  cv		& 0		& $x \in \mathbb{R}$	& Transformation velocity of the Galilei transformation in y-direction	& m s$^{-1}$\\
  llsadv	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$		& Switch for large scale forcings			& -\\
	 &&&&\\
  lqlnr		& .true.	& $x\in\{\text{.false.},\text{.true.}\}$		& Switch for Newton-Raphson approximation of the liquid water content	& -\\
  lnoclouds	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$		& Switch to disable $q_l$ calculations	& -\\
  \qquad	&		&				&							&\\
  \multirow{10}{*}{\begin{tabular}{@{\hspace{0cm}}l}\hypertarget{iadvmom}{iadv\_mom}\\\hypertarget{iadvtke}{iadv\_tke}\\\hypertarget{iadvthl}{iadv\_thl}\\\hypertarget{iadvqt}{iadv\_qt}\\\hypertarget{iadvsv}{iadv\_sv(1:nsv)} \end{tabular}$\left. \begin{tabular}{l} \\ \\ \\ \\ \\ \end{tabular} \right\}$} & \multirow{10}{*}{\begin{tabular}{@{\hspace{0cm}}l}5\\-1\\-1\\-1\\-1
\end{tabular}} & \multirow{10}{*}{\begin{tabular}{@{\hspace{0cm}}p{4cm}}$x \in \{1,$ $2,$ $5,$ $52,$ $55,$ $6,$ $62,$ $7\}$\end{tabular}}	& Advection scheme for momentum, TKE, $\theta_l$, $q_t$ and scalars: & \multirow{10}{*}{-}\\
  	&		&				& 1 = 1$^{\text{st}}$ order upwind					&\\
  	&		&				& 2 = 2$^{\text{nd}}$ order central difference			&\\
  	&		&				& 5 = Option 6 + 5$^{\text{th}}$ order upwind	&\\
  	&		&				& 52 = Horizontal 5$^{\text{th}}$ \& vertical 2$^{\text{nd}}$	&\\
  	&		&				& 55 = Hybrid scheme	&\\
  	&		&				& 6 = 6$^{\text{th}}$ order central difference			&\\
  	&		&				& 62 = Horizontal 6$^{\text{th}}$ \& vertical 2$^{\text{nd}}$	&\\
	&		&				& 7 = Kappa scheme					&\\
	 &&&&\\
ibas\_prf & 3 & $x \in \{1,2,3,4,5\}$ & 
\begin{tabular}{@{\hspace{0cm}}p{6cm}}Flag for density calculations based on\\
1 = Constant $\theta_v$\\
2 = Boussinesq-like (similar to DALES 3)\\
3 = Standard lapse rate, based on surface temp.\\
4 = Standard lapse rate, based on Tsurf = 15 $^\circ$C\\
5 = User defined (using the file baseprof.inp.\#\#\#) \\\end{tabular}
 & - \\
 	 &&&&\\
lambda\_crit & 100 & $x \in \mathbb{R}$ & Maximum value for the smoothness. This controls if WENO for the hybrid advection scheme & - \\
\end{supertabular}
\end{center}

\subsection{Namelist PHYSICS}\label{par:physics}

\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{1.6cm}|p{4cm}|p{6cm}|l|}
  thls		& -1	&  $x \in \mathbb{R}, \quad x>0$		& Liquid water potential temperature at the surface	& K\\
  ps		& -1	&  $x \in \mathbb{R}, \quad x>0$		& Pressure at the surface			& Pa\\
  &&&&\\
  isurf		& -1	& $x \in \{1,2,3,4,10\}$			& \begin{tabular}{@{\hspace{0cm}}p{6cm}}Flag for surface parametrization\\1 = Interactive scheme (using radiation)\\2 = Forced surface temperature; fluxes are calculated\\3 = Forced momentum, moisture and heat flux; surface temperature is calculated\\4 = Forced moisture and heat flux; $u_*$ and surface temperature are calculated \\10 = User defined surface scheme. Can only be used for certain cases (using the file moduser.f90) \\\end{tabular}	& -\\
  &&&&\\
  z0		& -1	& $x \in \mathbb{R}, \quad x>0$		& Surface roughness				& m\\
  ustin		& -1	& $x \in \mathbb{R}, \quad x>0$			& Prescribed friction velocity			& m s$^{-1}$\\
  wtsurf	& -1	& $x \in \mathbb{R}, \quad x>0$		& Flux of liq. water pot. temp. at the surface	& K m s$^{-1}$\\
  wqsurf	& -1	& $x \in \mathbb{R}$		& Flux of total water content 			& \begin{tabular}{@{\hspace{0cm}}p{1.4cm}}kg kg$^{-1}$ m s$^{-1}$\end{tabular}\\
  wsvsurf(1:nsv)& 0		& $x \in \mathbb{R}$	& Flux of scalar n at the surface		& ppb m s$^{-1}$\\
  &&&&\\
  ltimedep	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for timedependent fluxes and large scale forcings	& -\\
  lcoriol	& .true.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for coriolis force			& -\\
    &&&&\\
  \hypertarget{igrw}{igrw\_damp} & 2         & $x \in \{-1,0,1,2,3\}$	&	\begin{tabular}{@{\hspace{0cm}}p{6cm}}Flag for gravity wave damping\\0 = no damping \\1 = fast damping of wind to average wind \& slow damping of average to geowind \\2 = fast damping of wind to geowind  \\3 = fast damping of wind to average wind \\ -1 = nudging grid averaged wind to wind field provided by lscale.inp\\\end{tabular} & -\\
    &&&&\\
  geodamptime & 7200	& $x \in \mathbb{R}, \quad x>0$	& Time scale for nudging to geowind in sponge layer & s\\
  lmomsubs	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch to apply subsidence on momentum & -\\
  lmoist	& .true.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for calculation of moisture fields	& -\\
%  lneutraldrag	& 	& 	& Obsolete 		& \\
  chi\_half		& 0.5	& $x \in \mathbb{R}, \quad 0 \leq x \leq 1$	& Wet, dry or intermediate (default) mixing over the cloud edge	& - \\
  timerad	& 0		& $x \in \mathbb{R}, \quad x>0$	& Value for sampling interval of radiation scheme	& s\\  
  \qquad	&		&				&						& \\
%  \multirow{8}{*}[-14pt]{iradiation} & \multirow{8}{*}[-14pt]{0} & \multirow{8}{*}[-14pt]{$x \in \{0, 1, 2, 3, 4, 10\}$}	& Flag for radiation calculations & \multirow{8}{*}[-14pt]{-}\\
%  & & & 0 = No radiation &\\
%  & & & 1 = Full radiation		&\\
%  & & & 2 = Parametrized radiation				&\\
%  & & & 3 = Simple surface radiation for land surface model&\\
%  & & & 4 = Simple surface radiation for land surface model&\\
%  & & & 10 = User defined radiation (use \texttt{rad\_user.f90})&\\
%  & & & &\\
  \hypertarget{iradiation}{iradiation}	& 0	& $x \in \{0, 1, 2, 3, 4, 10\}$	&  
  \begin{tabular}{@{\hspace{0cm}}p{6cm}}
  Flag for radiation calculations \\
  0 = No radiation \\
  1 = Full radiation		\\
  2 = Parametrized radiation				\\
  3 = Simple surface radiation for land surface model\\
  4 = Radiation using the rapid radiative transfer model\\
  10 = User defined radiation (use \texttt{rad\_user.f90})\\
  \end{tabular} & - \\
  useMcICA	& .true.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for the Monte Carlo Independent Column Approach & -\\
  rad\_ls	& .true.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for prescribed radiative forcing		& -\\
  rad\_longw	& .true.	& $x\in\{\text{.false.},\text{.true.}\}$		& Switch for parametrized longwave radiative forcing	& -\\
  rad\_shortw	& .true.	& $x\in\{\text{.false.},\text{.true.}\}$		& Switch for parametrized shortwave radiative forcing	& -\\
  rad\_smoke	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$		& Switch for longwave divergence for smoke cloud	& -\\
  \qquad	&		&				&						& \\
  \multirow{8}{*}{irad} & \multirow{8}{*}{-1}	& \multirow{8}{*}{$x \in \{-1,0,1,2,3,4,10\}$}	& Deprecated flag to force (iradiation, rad\_ls, rad\_longw, rad\_shortw, rad\_smoke) & \multirow{8}{*}{-}\\ 
  	& & & -1 = - & \\
  	& & & 0 = (0,-,-,-,-) & \\
  	& & & 1 = (2,.true.,.false.,.false.,.false.) & \\
  	& & & 2 = (2,.false.,.true.,.false.,.false.) & \\
  	& & & 3 = (1,-,-,-,-) & \\
  	& & & 4 = (2,.false.,.true.,.true.,.false.) & \\
  	& & & 10 = (2,.false.,.false.,.false.,.true.) & \\
  	&&&&\\
  rka		& 130		& $x \in \mathbb{R}, \quad x>0$		& Extinction coefficient (used if $iradiation = 2$)	& m$^2$ kg$^{-1}$\\
  dlwbot	& 0		& $x \in \mathbb{R}, \quad x \ge 0$		& Longwave radiative flux jump at cloud bottom	& W m$^{-2}$\\
  dlwtop	& 74		& $x \in \mathbb{R}, \quad x \ge 0$	& Longwave radiative flux jump at cloud top	& W m$^{-2}$\\
  sw0		& 1100		& $x \in \mathbb{R}, \quad x \ge 0$	& Direct solar radiative component cloud top (assumes zero diffusive contribution)	& W m$^{-2}$\\
  gc		& 0.85		& $x \in \mathbb{R}, \quad 0 \leq x \leq 1$	& Asymmetry factor of droplet scattering angle distribution; overwritten to 0.64 if \hyperlink{laero}{laero} = .true. & -\\
%  sfc\_albedo	& 	& 	& Obsolete & \\
  reff		& 1e-5		& $x \in \mathbb{R}, \quad x>0$	& Cloud drop effective radius					& m\\
  isvsmoke	& 1		& $x \in \mathbb{N}^*, x \leq \text{nsv}$	& Scalar field to be used for optical depth calculation (when rad\_smoke = .true.)	& -\\
  lforce\_user	& .false. & $x\in\{\text{.false.},\text{.true.}\}$ & Switch for user-defined forcing. Can only be used for certain cases (using the file moduser.f90) & -\\
  lcloudshading	& .false. & $x\in\{\text{.false.},\text{.true.}\}$ & Switch to let clouds shade the surface for rad\_lsm & -\\
  lrigidlid	& .false. & $x\in\{\text{.false.},\text{.true.}\}$ & Switch to enable simulations with a rigid lid & -\\
  unudge	& 1		& $x \in \mathbb{R}, \quad 0 \leq x \leq 1$	& Nudging factor if \hyperlink{igrw}{igrw\_damp} is -1 & -\\
\end{supertabular}
\end{center}

\subsection{Namelist RUN}\label{par:run}

\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{1.6cm}|p{4.4cm}|p{6cm}|l|}
  iexpnr	& 0		& $x \in \mathbb{N}, \quad 0 \leq  x < 1000$		& Experiment number; every output filename ends with [.iexpnr]	& -\\
  \hypertarget{dtmax}{dtmax}	& 20		& $x \in \mathbb{R}, \quad x>0$		& Maximum timestep that is used by the model	& s\\
  runtime	& 300		& $x \in \mathbb{R}, \quad x>0$		& Total simulation (or: run) time		& s\\
  lwarmstart& .false.	& $x\in\{\text{.false.},\text{.true.}\}$		& Flag for a ``cold'' or a  ``warm'' start	& -\\
  startfile	& -		& $x = \text{initd\#\#h\#\#mxxx.\#\#\#}$	& Basis for the name of the restartfiles	& -\\
  trestart	& 3600		& $x \in \mathbb{R}, \quad x>0$		& Each $trestart$ seconds, a restart file is written to disk	& s\\
  dtav\_glob	& 60		& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$		& Global value for sampling interval of statistical routines	& s\\
  timeav\_glob	& 3600		& $x = n \cdot \text{dtav\_glob}, \quad n \in \mathbb{N}^*$	& Global value for writing interval of statistical routines	& s\\
  irandom	& 0		& $x \in \mathbb{Z}$			& Number to feed randomnizer with		& -\\
  krand		& kmax		& $x \in \mathbb{N}, \quad 1 \leq x \leq \text{kmax}$		& Top vertical full level of randomnization 	& -\\
  randqt	& 1e-5		& $x \in \mathbb{R}, \quad x\geq 0$		& Amplitude of randomnization of qt		& kg kg$^{-1}$\\
  randthl	& 0.1		& $x \in \mathbb{R}, \quad x \geq 0$		& Amplitude of randomnization of thl		& K\\
  nsv		& 0		& $x \in \mathbb{N}, \quad 0 \leq x \leq 100$	& Number of additional passive scalars		& -\\
  ladaptive	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$		& If .true., this allows the model to vary time step, depending on numerical stability criteria				& -\\
  courant	& 0.7 or 1$^*$	& $x \in \mathbb{R}, \quad x>0$		& Courant number				& -\\
  peclet	& 0.15 & $x \in \mathbb{R}, \quad x>0$		& Peclet number					& -\\	
  author	& $``''$	& $x = ``....''$	& Name of the author & -\\
  krandumin	& 1		& $x \in \mathbb{N}^*, x \leq \text{kmax}$	& Bottom vertical full level of wind randomnization 	& -\\
  krandumax	& 0		& $x \in \mathbb{N},  x \leq \text{kmax}$	& Top vertical full level of wind randomnization 	& -\\
  randu		& 0.5		& $x \in \mathbb{R}, \quad x \geq 0$		& Amplitude of randomnization of wind speed 	& m s$^{-1}$\\
  \hypertarget{nprocx}{nprocx}	& 1	& $x = N_{\text{processors}} / n, \quad n,x \in \mathbb{N}^*$	& Number of processors in $x$ direction; if set to 0, MPI will determine suitable value	& - \\
  \hypertarget{nprocy}{nprocy}	& 0	& $x = N_{\text{processors}} / \text{nprocx}$	& Number of processors in $y$ direction; if set to 0, MPI will determine suitable value	& - \\
\end{supertabular}
$^*$If $\hyperlink{iadvmom}{\text{iadv\_mom}} \in \lbrace6, 62\rbrace$ or any value of\hyperlink{iadvtke}{\text{iadv\_tke}}, \hyperlink{iadvthl}{\text{iadv\_thl}}, \hyperlink{iadvqt}{\text{iadv\_qt}} or \hyperlink{iadvsv}{\text{iadv\_sv}} $\in \lbrace6, 62, 7\rbrace$, courant = 0.7 as standard. Otherwise default value is 1.
\end{center}

%\newpage
\subsection{Namelist NAMSUBGRID}\label{par:subgrid}

\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{1.6cm}|p{4cm}|p{6cm}|l|}
  ldelta	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for diminished sfs in stable flow		& -\\
  lmason	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for decreased length scale near the surface	& -\\
  cf		& 2.5		& $x \in \mathbb{R}, \quad x>0$	& Filter constant					& -\\
  cn		& 0.76		& $x \in \mathbb{R}, \quad x>0$	& Subfilter scale parameter				& -\\
  Rigc		& 0.25		& $x \in \mathbb{R}, \quad x>0$	& Critical Richardson number				& -\\
  Prandtl	& $\frac{1}{3}$	& $x \in \mathbb{R}, \quad x>0$	& Prandtl number					& -\\
  lsmagorinsky & .false.& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for smagorinsky subgrid scheme & -\\
  cs	& -1	& $x \in \mathbb{R}, \quad x>0$ & Smagorinsky constant	& -\\
  nmason	& 2	& $x \in \mathbb{R}, \quad x>0$ & Exponent in Mason correction function & -\\
  sgs\_surface\_fix & .true.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch to apply a fix to the coupling of SFS TKE to the surface (experimental) & - \\
\end{supertabular}
\end{center}

\newpage
\section{Extra modules}\label{par:extramod}

\subsection{Namelist NAMAGScross}\label{par:agscross}

\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{2cm}|p{4cm}|p{6cm}|l|}
  lAGScross	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$		& Switch to enable A-g$\rm_s$ specific output; requires \hyperlink{lrsags}{lrsags} = .true.	& -\\
  dtav		& dtav\_glob	& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
\end{supertabular}
\end{center}

\subsection{Namelist NAMBUDGET}\label{par:budget}

\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{2cm}|p{4cm}|p{6cm}|l|}
  lbudget	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$		& Switch for turbulent TKE budget calculation	& -\\
  dtav		& dtav\_glob	& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
  timeav	& timeav\_glob	& $x = n \cdot \text{dtav}, \quad n \in \mathbb{N}^*$	& Time interval for writing statistics		& s\\
\end{supertabular}
\end{center}

\subsection{Namelist NAMBULKMICROSTAT}\label{par:bulkmicrostat}

\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{2cm}|p{4cm}|p{6cm}|l|}
  lmicrostat	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for microphysics statistics calculation	& -\\
  dtav		& dtav\_glob	& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
  timeav	& timeav\_glob	& $x = n \cdot \text{dtav}, \quad n \in \mathbb{N}^*$	& Time interval for writing statistics		& s\\
\end{supertabular}
\end{center}

\subsection{Namelist NAMCANOPY}\label{par:canopy}

\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{1.5cm}|p{3.5cm}|p{6cm}|l|}
%  lbudget	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$		& Switch for turbulent TKE budget calculation	& -\\
%  dtav		& dtav\_glob	& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
%  timeav	& timeav\_glob	& $x = n \cdot \text{dtav}, \quad n \in \mathbb{N}^*$	& Time interval for writing statistics		& s\\
  lcanopy	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$		& Switch to represent canopy drag	& -\\
  ncanopy	& 10		& $x \in \mathbb{N}^*, x \leq \text{kmax}$		& Amount of layers that contain canopy	& -\\
  cd		& 0.15		& $x \in \mathbb{R}, \quad x > 0$				& Drag coefficient	& -\\
  lai		& 2			& $x \in \mathbb{R}, \quad x\geq 0$				& One-sided plant area index of the canopy	& -\\
  lpaddistr	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$		& Switch to make use of customized plant area density (prescribed at half levels in paddistr.inp)	& -\\
  npaddistr & 11		& $x \in \mathbb{N}, \quad x \geq 2$			& Amount of half levels prescribed in paddistr.inp	& -\\
  wth\_can	& 0			& $x \in \mathbb{R}$							& Prescribed SH canopy flux (at top) & K m s$^{-1}$ \\
  wqt\_can	& 0			& $x \in \mathbb{R}$							& Prescribed LE canopy flux (at top) & kg kg$^{-1}$ m s$^{-1}$ \\
  wsv\_can(1:100)	& 0			& $x \in \mathbb{R}$					& Prescribed scalar flux (at top) & ppb m s$^{-1}$ \\
  wth\_total & .false.	& $x\in\{\text{.false.},\text{.true.}\}$		& If true, wth\_can is including the surface flux	& -\\
  wqt\_total & .false.	& $x\in\{\text{.false.},\text{.true.}\}$		& If true, wqt\_can is including the surface flux	& -\\
  wsv\_total(1:100) & .false.	& $x\in\{\text{.false.},\text{.true.}\}$& If true, wth\_sv is including the surface flux	& -\\
  wth\_alph	& 0			& $x \in \mathbb{R}$							& Decay constant for SH with integrated PAD & - \\
  wqt\_alph	& 0			& $x \in \mathbb{R}$							& Decay constant for LE with integrated PAD & - \\
  wsv\_alph(1:100)	& 0			& $x \in \mathbb{R}$					& Decay constant for scalar fluxes with integrated PAD & - \\
\end{supertabular}
\end{center}

\subsection{Namelist NAMCAPE}\label{par:cape}

\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{1.6cm}|p{4cm}|p{6cm}|l|}
  lcape	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch to turn CAPE crosssections on and off & -\\
  dtav		& dtav\_glob	& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
\end{supertabular}
\end{center}

\newpage
\subsection{Namelist NAMCHECKSIM}\label{par:checksim}

\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\
        \hline
%        \multicolumn{5}{c}{}\\
%        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\
        \hline
  }
\begin{supertabular}{|l|p{1.6cm}|p{4cm}|p{6cm}|l|}
  tcheck	& 0	& $x \in \mathbb{R}, \quad x\geq 0$	& Time interval between checks of velocity divergence and Courant numbers	& s\\
\end{supertabular}
\end{center}

%\newpage
\subsection{Namelist NAMCHEM}\label{par:chem}

\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{1.6cm}|p{4cm}|p{6cm}|l|}
  lchem	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch to turn chemistry on and off & -\\
  tnor	& -	& $x \in \mathbb{N}, \quad x \ge N_{\text{reactions}}$	& Number of chemical reactions & -\\
  firstchem	& 1	& $x \in \mathbb{N}, \quad 1 \le x \le \text{lastchem}$	& Column number in scalar.inp of first chemical & -\\
  lastchem	& nsv	& $x \in \mathbb{N}, \quad \text{firstchem} \le x \le \text{nsv}$	& Column number in scalar.inp of last chemical & -\\
  ldiuvar & .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switches diurnal photolysis reaction rates & -\\
  h\_ref	& 12	& $x \in \mathbb{R}, \quad 0 \leq x < 24$	& Hour used to calculate photolysis rates if ldiuvar = .false. & h\\
  lcloudKconst	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch to make photolysis reaction rates independent of cloud presence if .true. & -\\
  lchconst	& .false. & $x\in\{\text{.false.},\text{.true.}\}$	& Reaction rates are based on t\_ref p\_ref and q\_ref instead of calculated $T$, $p$ and $q$ if .true. & -\\
  t\_ref	& 298 & $x \in \mathbb{R}, \quad x \ge 0$	& Reference temperature	& K\\
  q\_ref	& 5.e-3 & $x \in \mathbb{R}, \quad x \ge 0$	&  Reference humidity & kg kg$^{-1}$\\
  p\_ref & 100000 & $x \in \mathbb{R}, \quad x > 0$&  Reference pressure & Pa\\
  lchmovie & .false. &  $x\in\{\text{.false.},\text{.true.}\}$ & Switch for extra output to make movies & -\\
  dtchmovie & 60& $x \in \mathbb{R}, \quad x > 0$& Time interval to write extra output & s\\
  lsegr & .false. & $x\in\{\text{.false.},\text{.true.}\}$ & Switch for information about segregation in a Mixed Layer approach & -\\
\end{supertabular}
\end{center}

\newpage
\subsection{Namelist NAMCLOUDFIELD}\label{par:cloudfield}

\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{1.6cm}|p{4cm}|p{6cm}|l|}
  lcloudfield	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for cloud field calculations		& -\\
  laddinfo	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch to enable writing of $q_l$ and $w$ values	& -\\
  dtav		& dtav\_glob	& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
\end{supertabular}
\end{center}

%\newpage
\subsection{Namelist NAMCROSSSECTION}\label{par:crosssection}

\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{1.6cm}|p{4cm}|p{6cm}|l|}
  lcross	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for dumping of crosssections of the field	& -\\
  lbinary	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch to dump crosssections in binary files	& -\\
  dtav		& dtav\_glob	& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
  crossheight(1:100)& 1: $x=2$ & $x \in \mathbb{N}, \quad 1 \leq x \leq \text{kmax}$	& Heights of the horizontal crosssection		& -\\
  crossplane	& 2		& $x \in \mathbb{N}, \quad 1 \leq x \leq {\text{jtot}}/{N_\text{processors}}$	& Location of the vertical (xz) plane on every processor& -\\
  crossortho	& 2	& $x \in \mathbb{N}, \quad 1 \leq x \leq \text{itot}$	& Location of the vertical (yz) plane & - \\
\end{supertabular}
\end{center}

\subsection{Namelist NAMDE}\label{par:deltaeddington}

\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{2cm}|p{4cm}|p{6cm}|l|}
%  lbudget	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$		& Switch for turbulent TKE budget calculation	& -\\
%  dtav		& dtav\_glob	& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
%  timeav	& timeav\_glob	& $x = n \cdot \text{dtav}, \quad n \in \mathbb{N}^*$	& Time interval for writing statistics		& s\\
  SSA		& 0.999	& $x \in \mathbb{R}, \quad 0 \leq x \leq 1$	& Representative single scattering albedo & - \\
  \hypertarget{laero}{laero}	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch to use aerosols instead of clouds for Delta-Eddington calculations	& -\\
  iDE		& 1		& $x \in \mathbb{N}^*, x \leq \text{nsv}$	& Scalar field used as aerosols if laero set to .true. & - \\
\end{supertabular}
\end{center}

\newpage
\subsection{Namelist NAMFIELDDUMP}\label{par:fielddump}

\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{1.6cm}|p{4.8cm}|p{6cm}|l|}
  lfielddump	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for dumping of 3d-fields		& -\\
  dtav		& dtav\_glob	& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
  lbinary	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch to dump crosssections in binary files	& -\\  
  ldiracc	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch to dump into binary direct access files instead of Fortran unformatted files		& -\\
  klow		& 1		& $x \in \mathbb{N}, \quad 1 \le x \le \text{khigh}$	& Lowest level of the 3d-field output		& -\\
  khigh		& $kmax$	& $x \in \mathbb{N}, \quad \text{klow} \le x \le \text{kmax}$	& Highest level of the 3d-field output		& -\\
\end{supertabular}
\end{center}

\subsection{Namelist NAMGENSTAT}\label{par:namgenstat}
\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
%        \multicolumn{5}{c}{}\\
%        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{2cm}|p{4cm}|p{6cm}|l|}
  lstat		& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for calculating generic slabaveraged statistics	& -\\
  dtav		& dtav\_glob	& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
  timeav	& timeav\_glob	& $x = n \cdot \text{dtav}, \quad n \in \mathbb{N}^*$	& Time interval for writing statistics		& s\\
\end{supertabular}
\end{center}

%\newpage
\subsection{Namelist NAMHETEROSTATS}\label{par:namheterostats}
\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{2cm}|p{4cm}|p{6cm}|l|}
  lheterostats		& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for calculating generic $x$-averaged statistics	& -\\
  dtav		& dtav\_glob	& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
  ncklimit& kmax &  $x \in \mathbb{N}^*, \quad x \le \text{kmax}$ & Maximum height index for which $x$-averages are calculated and written & -\\ 
\end{supertabular}
\end{center}

\newpage
\subsection{Namelist NAMLSMCROSSSECTION}\label{par:lsmcrosssection}
\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{1.6cm}|p{4cm}|p{6cm}|l|}
  lcross	&	.false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch to activate dumping of projections in the land surface layer & -\\
  dtav		& dtav\_glob	& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
  crossheight	& 2	& $x \in \mathbb{N}^*, \quad x \le 4$	& Height of the xy-projection & -\\
  crossplane	& 2	& $x \in \mathbb{N}^*, \quad x \le \frac{\text{jtot}}{\hyperlink{nprocy}{\text{nprocy}}}$	& Position of the xz-plane on every processor & -\\
\end{supertabular}
\end{center}

\subsection{Namelist NAMLSMSTAT}\label{par:lsmstat}
\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{2cm}|p{4cm}|p{6cm}|l|}
  lstat		& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for calculating land surface statistics	& -\\
  dtav		& dtav\_glob	& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
  timeav	& timeav\_glob	& $x = n \cdot \text{dtav}, \quad n \in \mathbb{N}^*$	& Time interval for writing statistics		& s\\
\end{supertabular}
\end{center}

%\newpage
\subsection{Namelist NAMMICROPHYSICS}\label{par:microphysics}

\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
%        \multicolumn{5}{c}{}\\
%        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{1.6cm}|p{4cm}|p{6cm}|l|}
\multirow{8}{*}[-14pt]{imicro}	& \multirow{8}{*}[-14pt]{0}	& \multirow{8}{*}[-14pt]{$x \in \{0,1,2,3,5,10\}$}	& Flag for the microphysical scheme:			& \multirow{8}{*}[-14pt]{-}\\
  & & & 0 = No microphysics (all-or-nothing scheme)&\\
  & & & 1 = Drizzle microphysics&\\
  & & & 2 = Bulk microphysics&\\
  & & & 3 = Bin microphysics (inactive)&\\
  & & & 5 = Simple ice microphysics&\\
  & & & 10 = User defined microphysics. Can only be used for certain cases (using the file moduser.f90)&\\
  &&&&\\
  l\_sb		& .true.		& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for KK00 \citep{Khairoutdinov2000} or SB \citep{Seifert2001,Seifert2006} scheme resp.			& -\\
  l\_sedc	& .true.		& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for cloud droplet sedimentation		& -\\
  l\_rain	& .true.		& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for rain formation and evolution		& -\\
  l\_mur\_cst	& .false.		& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for a constant value of $\mu_r$ (in raindrop gamma distribution)	& -\\
    l\_berry	& .true.		& $x\in\{\text{.false.},\text{.true.}\}$	& Berry-Hsie autoconversion instead of Kessler-Lin	& -\\
  l\_graupel	& .true.		& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for graupel	& -\\
  l\_warm	& .false.		& $x\in\{\text{.false.},\text{.true.}\}$	& Check: rune ice micro in warm mode	& -\\
  mur\_cst	& 5			& $x \in \mathbb{R}, \quad x>0$	& Value for $\mu_r$, a shape parameter for the rain drop number density distribution (used only if l\_mur\_cst = .true.)	& -\\
  Nc\_0		& 70e6			& $x \in \mathbb{R}, \quad x \ge 0$	& Initial number of cloud droplets			& -\\
  sig\_g	& 1.34			& $x \in \mathbb{R}, \quad x \ge 0$	& Geometric standard deviation of the cloud droplet drop size distribution			& -\\
  sig\_gr	& 1.5		& $x \in \mathbb{R}, \quad x \ge 0$	& Geometric standard deviation of the rain droplet drop size distribution			& -\\
\end{supertabular}
\end{center}

%\newpage
\subsection{Namelist NAMNETCDFSTATS}\label{par:netcdf}
\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{1.6cm}|p{4cm}|p{6cm}|l|}
%dtav	& dtav\_glob & $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
lnetcdf	& .true. & $x\in\{\text{.false.},\text{.true.}\}$	& Switch to write NetCDF output	& -\\
%ncklimit& 60	&  $x \in \mathbb{N}^*, \quad x \le \text{kmax}$ & Maximum height index for which $x$-averages are calculated and written & -\\ 
\end{supertabular}
\end{center}


\subsection{Namelist NAMNUDGE}\label{par:nudge}
\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{1.6cm}|p{4cm}|p{6.5cm}|l|}
lnudge	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch to activate/deactivate nudging	& -\\
tnudgefac & 1	& $x \in \mathbb{R}, \quad x>0$	&	Nudgefactor & -\\
\end{supertabular}
\end{center}

\newpage 
\subsection{Namelist NAMPARTICLES}\label{par:particles}
\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{1.6cm}|p{4cm}|p{6cm}|l|}
  lpartic	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch to enable/disable this routine		& -\\
  lpartsgs	& .true.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for subgrid diffusion			& -\\
  &&&&\\
  \multirow{3}{*}{intmeth}	& \multirow{3}{*}{3}		& \multirow{3}{*}{$x\in\{0,3\}$}			& Flag for time integration scheme		& \multirow{3}{*}{-}\\
  & & & 0 = particles stand still & \\
  & & & 3 = Adams-Bashfort second order scheme &\\
  &&&&\\
  lstat		& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for particle statistics		& -\\
  dtav		& 60		& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
  timeav	& 3600		& $x = n \cdot \text{dtav}, \quad n \in \mathbb{N}^*$	& Time interval for writing statistics	& s\\
  ldump		& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for dump of particle field		& -\\
  timedump	& 3600		& $x \in \mathbb{R}, \quad x>0$	& Time interval for particle field dump		& s\\
  npartdump	& 10		& $x \in \mathbb{N}, \quad 0 \leq x \leq 10$	& Number of variables written at $timedump$, in order: $x$, $y$, $z$, $u$, $v$, $w$, $\theta_l$, $\theta_v$, $q_t$, $q_l$	& -\\
\end{supertabular}
\end{center}

%\newpage
\subsection{Namelist NAMprojection}\label{par:projection}
Old version of modcrosssection (Paragraph \ref{par:crosssection}). Usage of modprojection is not advised.
\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{1.6cm}|p{4cm}|p{6cm}|l|}
  lproject	&	.false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch to activate dumping of projections of the field	& -\\
  dtav		& dtav\_glob	& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
  projectheight	& 2	& $x \in \mathbb{N}^*, \quad x \le \text{kmax}$	& Height of the xy-projection & -\\
%  projectplane	& 2	& $x \in \mathbb{N}^*, \quad x \le \frac{\text{jtot}}{N_{\text{processors}}}$	& Position of the xz-plane on every processor & -\\
\end{supertabular}
\end{center}

\subsection{Namelist NAMquadrant}\label{par:quadrant}

\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{2cm}|p{4cm}|p{6cm}|l|}
%  lbudget	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$		& Switch for turbulent TKE budget calculation	& -\\
%  dtav		& dtav\_glob	& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
%  timeav	& timeav\_glob	& $x = n \cdot \text{dtav}, \quad n \in \mathbb{N}^*$	& Time interval for writing statistics		& s\\
  lquadrant	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$					& Switch to enable quadrant-hole analysis	& - \\
  dtav		& dtav\_glob	& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
  timeav	& dtav		& $x = n \cdot \text{dtav}, \quad n \in \mathbb{N}^*$		& Time interval for writing statistics		& s\\
  hole		& 0			& $x \in \mathbb{R},\quad x \geq 0$							& Hole size of Q-H analysis	& - \\
  &&&&\\
 \multirow{4}{*}[-14pt]{iwind}	& \multirow{4}{*}[-14pt]{1}	& \multirow{4}{*}[-14pt]{$x \in \lbrace 1, 2, 3 \rbrace$}	& Flag for which wind speed determines quadrant:	& \multirow{4}{*}[-14pt]{-} \\
 & & & 1: $u$ &\\
 & & & 2: $v$ &\\
 & & & 3: $\sqrt{u^2+v^2}$ &\\ 
 &&&& \\
  klow		& 2			& $x \in \mathbb{N}, \quad 2 \le x \le \text{khigh}$			& Lowest (half) level evaluated in Q-H analysis	& - \\
  khigh		& kmax		& $x \in \mathbb{N}, \quad x \le \text{kmax}$	& Highest (half) level evaluated in Q-H analysis	& - \\
\end{supertabular}
\end{center}


%\newpage
\subsection{Namelist NAMRADIATION}\label{par:radiation}
This namelist is only used if the Rapid Radiative Transfer Model for GCMs (RRTMG) is applied, i.e.  \hyperlink{iradiation}{iradiation} = 4.
\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{2cm}|p{4cm}|p{6cm}|l|}
%  lbudget	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$		& Switch for turbulent TKE budget calculation	& -\\
%  dtav		& dtav\_glob	& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
%  timeav	& timeav\_glob	& $x = n \cdot \text{dtav}, \quad n \in \mathbb{N}^*$	& Time interval for writing statistics		& s\\
   lCnstZenith	&	.false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch to apply a fixed solar zenith angle	& -\\
   cnstZenith	&	0	& $x \in \mathbb{R}, \quad \vert x\vert \leq 90 $	& Solar zenith angle if lCnstZenith = .true.	& $^{\circ}$\\
   lCnstAlbedo	&	.false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch to apply the constant \hyperlink{albedo}{albedoav} as albedo instead of the parameterization in RRTMG	& -\\
  &&&&\\
  ioverlap	& 2	& $x \in \lbrace 0, 1, 2, 3 \rbrace$	& \parbox{6cm}{Flag for cloud overlap method: \\ 
0: Clear only\\
1: Random \\
2: Maximum/random \\
3: Maximum
  }& - \\
  &&&&\\
  inflglw	& 2	& $x \in \lbrace 0, 1, 2 \rbrace$	& \parbox{6cm}{Flag for RRTMG input: \\ 
0: Cloud fraction \& optical depth\\
1: Cloud fraction \& liquid water path \\
2: Cloud fraction \& liquid water path \& ice fraction }& - \\
  &&&&\\
  iceflglw	& 3	& $x \in \lbrace 0, 1, 2, 3 \rbrace$	& \parbox{6cm}{Flag for ice particle specification: \\ 
Detailed information under ``iceflag'' in rrtmg\_lw\_cldprop.f90}& - \\
  &&&&\\
  liqflglw	& 1	& $x \in \lbrace 0, 1 \rbrace$	& \parbox{6cm}{Flag for effect of liquid water: \\ 
0: optical depth computed as in CCM3\\
1: optical depth due to water clouds computed using water droplet effective radius input}& - \\
  &&&&\\
  inflgsw	& 2	& $x \in \lbrace 0, 1, 2 \rbrace$	& \parbox{6cm}{Flag for RRTMG input: \\ 
0: Cloud fraction \& optical depth\\
1: Cloud fraction \& liquid water path \\
2: Cloud fraction \& liquid water path \& ice fraction }& - \\
  &&&&\\
  iceflgsw	& 3	& $x \in \lbrace 1, 2, 3 \rbrace$	& \parbox{6cm}{Flag for ice particle specification: \\ 
Detailed information under ``iceflag'' in rrtmg\_lw\_cldprop.f90}& - \\
  &&&&\\
  liqflgsw	& 1	& $x \in \lbrace 0, 1 \rbrace$	& \parbox{6cm}{Flag for effect of liquid water: \\ 
0: optical depth computed as in CCM3\\
1: optical depth due to water clouds computed using water droplet effective radius input}& - \\
 &&&&\\
 ocean		& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch to calculate radiation over ocean	& -\\
 usero3		& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch to take O$_3$ profile from backrad.inp instead of standard profile	& -\\
 co2factor	& 1			& $x \in \mathbb{R},\quad x \geq 0$			& Multiplication factor for reading CO$_2$ input by RRTMG	& - \\
 &&&&\\
 doperpetual	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& \parbox{6cm}{Switch to not use a diurnal cycle	(code not yet inserted if .true.; highly recommended not to enable)}& -\\
  &&&&\\
 doseasons	& .true.	& $x\in\{\text{.false.},\text{.true.}\}$	& \parbox{6cm}{Switch to account for changes in Earth's position from day to day (code not correct if .false.; highly recommended not to disable)} & -\\
  &&&&\\
 iyear	& 1992			& $x\in\mathbb{Z}$	& Year of the simulation & -\\
\end{supertabular}
\end{center}

\subsection{Namelist NAMRADSTAT}\label{par:radstat}
\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{2cm}|p{4cm}|p{6cm}|l|}
  lstat	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for calculating slabaveraged radiation statistics	& -\\
  lradclearair	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Another switch for calculating slabaveraged radiation statistics	& -\\
  dtav		& dtav\_glob	& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
  timeav	& timeav\_glob	& $x = n \cdot \text{dtav}, \quad n \in \mathbb{N}^*$	& Time interval for writing statistics		& s\\
\end{supertabular}
\end{center}

%\newpage
\subsection{Namelist NAMSAMPLING}\label{par:sampling}
\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{2cm}|p{4cm}|p{6cm}|l|}
  dtav		& dtav\_glob	& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
  timeav	& timeav\_glob	& $x = n \cdot \text{dtav}, \quad n \in \mathbb{N}^*$	& Time interval for writing statistics	& s\\
  lsampcl	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for conditional sampling cloud ($q_l > 0$)	& -\\
  lsampco	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for conditional sampling cloud core ($q_l > 0,\theta_v' > 0$)	& -\\
  lsampup	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for conditional sampling updrafts ($w > 0$)	& -\\
  lsampbuup	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for conditional sampling of buoyant updrafts ($w > 0, \theta_v' > 0$)	& -\\
  lsampcldup & .false.       & $x\in\{\text{.false.},\text{.true.}\}$        & Switch for conditional sampling cloudy updrafts ($q_l > 0, w > 0$) & -\\
  lsamptend & .false.        & $x\in\{\text{.false.},\text{.true.}\}$        & Switch for conditional sampling of tendencies & -\\
\end{supertabular}
\end{center}

\subsection{Namelist NAMSIMPLEICESTAT}\label{par:simpleicestat}
\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{2cm}|p{4cm}|p{6cm}|l|}
  lmicrostat	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for simple ice microphysics statistics calculation	& -\\
  dtav		& dtav\_glob	& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
  timeav	& timeav\_glob	& $x = n \cdot \text{dtav}, \quad n \in \mathbb{N}^*$	& Time interval for writing statistics		& s\\
\end{supertabular}
\end{center}

\subsection{Namelist NAMSTATTEND}\label{par:stattend}
\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{2cm}|p{4cm}|p{6cm}|l|}
%  lstattend	& & & Obsolete & \\
  ltend	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for calculation of tendencies of prognostic variables & -\\
  dtav		& dtav\_glob	& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
  timeav	& timeav\_glob	& $x = n \cdot \text{dtav}, \quad n \in \mathbb{N}^*$	& Time interval for writing statistics	& s\\
\end{supertabular}
\end{center}

\newpage
\subsection{Namelist NAMSTRESS}\label{par:stress}
\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{2cm}|p{4cm}|p{6cm}|l|}
  lstress	& .false. & $x\in\{\text{.false.},\text{.true.}\}$ & Switch for turbulent stress budget & -\\
  dtav		& dtav\_glob	& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
  timeav	& timeav\_glob	& $x = n \cdot \text{dtav}, \quad n \in \mathbb{N}^*$	& Time interval for writing statistics	& s\\
\end{supertabular}
\end{center}

%\newpage
\subsection{Namelist NAMSURFACE}\label{par:surface}
\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{1.6cm}|p{3.5cm}|p{6cm}|l|}
  isurf	& -1	& $x \in \{1,2,3,4,10\}$	& Overrides isurf flag of Namelist \hyperref[par:physics]{PHYSICS} if used. & -\\
  lmostlocal	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch to locally determine Obukhov length& -\\
  lsmoothflux	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch to create uniform sensible and latent heat flux over domain& -\\
  lneutral	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch to disable stability corrections & -\\
  z0	& -1	& 	& Obsolete	& \\
  z0mav	& -1	& $x \in \mathbb{R}, \quad x>0$	& Roughness length of momentum	& m\\
  z0hav	& -1	& $x \in \mathbb{R}, \quad x>0$	& Roughness length of heat	& m\\
  thls	& -1	& $x \in \mathbb{R}, \quad x>0$	& Surface liquid water potential temperature & K\\
  ps	& -1	& $x \in \mathbb{R}, \quad x>0$	& Surface pressure & Pa\\
  ustin	& -1	& $x \in \mathbb{R}, \quad x \ge 0$	& Prescribed friction velocity & m s$^{-1}$\\
  wtsurf	& -1	& $x \in \mathbb{R}$	& Prescribed kinematic temperature flux	& K m s$^{-1}$\\
  wqsurf	& -1	& $x \in \mathbb{R}$	& Prescribed kinematic moisture flux & kg kg$^{-1}$ m s$^{-1}$\\
  wsvsurf(1:nsv)& 0	& $x \in \mathbb{R}[100]$	& Prescribed surface scalar flux & ppb m s$^{-1}$\\ 
  tsoilav	& -	& $x \in \mathbb{R}[4], \quad x[i] > 0$	& Initial soil temperature (for 4 layers, only used if isurf = 1)	& K\\
  tsoildeepav	& - & $x \in \mathbb{R}, \quad x>0$ & Soil bottom temperature (if isurf = 1)& K \\
  &&&&\\
  phiwav	& -	& \parbox{3.5cm}{$x \in \mathbb{R}[4],$\\$0 \leq x[i] \leq 0.472$}	& \parbox{6cm}{Soil moisture (if isurf = 1 and preferably below 0.323)}	& m$^{3}$ m$^{-3}$\\
  &&&&\\
  rootfav	& -	& \parbox{3.5cm}{$x \in \mathbb{R}[4],$\\$ 0 \leq x[i] \leq 1, $\\$ \sum_i x[i] =1$}	& Root fraction	(if isurf = 1) & -	\\
  &&&&\\
  Cskinav	& -1	& $x \in \mathbb{R}, \quad x \ge 0$	& Heat capacity skin layer (if isurf = 1)	& J K$^{-1}$ m$^{-2}$\\
  lambdaskinav	&-1	& $x \in \mathbb{R}, \quad x \ge 0$	& Heat conductivity skin layer (if isurf = 1)	& J s$^{-1}$ K$^{-1}$ m$^{-2}$\\
  \hypertarget{albedo}{albedoav}	& -1	& $x \in \mathbb{R}, \quad 0 \le x \le 1$ & Albedo (if isurf = 1)	& -\\
  Qnetav	& -1	& $x \in \mathbb{R}$	& Net radiation (if iradiation $\ne$ 1 and isurf = 1)	& J s$^{-1}$ m$^{-2}$\\
  cvegav	& -1	& $x \in \mathbb{R}, \quad x \ge 0$	& Vegetation cover & -\\
  Wlav		& -1	& $x \in \mathbb{R}, \quad x \ge 0$	& Initial water cover on vegetation	& m\\
  rsminav	& -1	& $x \in \mathbb{R}, \quad x \ge 0$	& Minimal vegetation resistance	(if isurf = 1)& s m$^{-1}$\\
  rssoilminav & -1	&  $x \in \mathbb{R}, \quad x \ge 0$ & Minimum soil evaporation resistance &-\\
  LAIav	& -1	& $x \in \mathbb{R}, \quad x \ge 0$	& Leaf area index (if isurf = 1)	& m$^{2}$ m$^{-2}$\\
  gDav	& -	& $x \in \mathbb{R}, \quad x \ge 0$	& Correction for evaporation of tall vegetation (if isurf = 1) & -\\
  rsisurf2	& 0	& $x \in \mathbb{R}, \quad x \ge 0$	& Vegetation resistance (if isurf = 2)	& s m$^{-1}$\\
  lhetero & .false. & $x\in\{\text{.false.},\text{.true.}\}$ & Switch to apply heterogeneous surfaces & - \\
  xpatches & 2 & $x \in \mathbb{N}, \quad 1 \leq x \leq 16$ & Amount of patches in the x-direction & - \\
  ypatches & 1 & $x \in \mathbb{N}, \quad 1 \leq x \leq 16$ & Amount of patches in the y-direction & - \\
  land\_use(1:16,1:16) & 0 & $x \in \mathbb{N}, \quad 1 \leq x \leq 10$ & Indicator for the land type & - \\
  loldtable & .false. & $x\in\{\text{.false.},\text{.true.}\}$  & Switch to use surface.inp.xxx instead of updated surface.$<$name$>$.inp.xxx & - \\ 
  \hypertarget{lrsags}{lrsags}	& .false. & $x\in\{\text{.false.},\text{.true.}\}$  & Switch to use A-g$_{\rm s}$ for resistance calculations (if isurf = 1) & - \\ 
  lCO2Ags	& .false. & $x\in\{\text{.false.},\text{.true.}\}$  & Switch to calculate CO$_2$ fluxes with A-g$_{\rm s}$  (if lrsAgs = .true.) & - \\ 
  planttype & 3	& $x \in \{3, 4\}$	& Switch between (C)3 and (C)4 plants for A-g$_{\rm s}$ & - \\
  lrelaxgc	& .false. & $x\in\{\text{.false.},\text{.true.}\}$  & Switch to nudge towards calculated conductivity instead of instantaneous adaptation & - \\ 
  kgc		& 0.00113 & $x \in \mathbb{R}, \quad 0 < x \le \hyperlink{dtmax}{\text{dtmax}}^{-1}$	& Response rate for stomatal conductivity	& s$^{-1}$\\
  lrelaxci	& .false. & $x\in\{\text{.false.},\text{.true.}\}$  & Switch to nudge towards calculated internal CO$_2$ concentration instead of instantaneous adaptation & - \\ 
  kci		& 0.00113 & $x \in \mathbb{R}, \quad 0 < x \le \hyperlink{dtmax}{\text{dtmax}}^{-1}$	& Response rate for internal CO$_2$ concentration	& s$^{-1}$\\
  phi		& 0.472	& $x \in \mathbb{R}, \quad x > 0$	& volumetric soil porosity & - \\
  phifc		& 0.323	& $x \in \mathbb{R}, \quad x > 0$	& volumetric moisture at field capacity & - \\
  phiwp		& 0.171	& $x \in \mathbb{R}, \quad x > 0$	& volumetric moisture at wilting point & - \\
  R10		& 0.23	& $x \in \mathbb{R}, \quad x > 0$	& Respiration at 10 $^{\circ}$C & mg m$^{-2}$ s$^{-1}$ \\
\end{supertabular}


\end{center}

%\newpage
\subsection{Namelist NAMTILT}\label{par:tilt}
\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{2cm}|p{4cm}|p{6cm}|l|}
  ltilted	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for a tilted boundary layer		& -\\
  alfa		& 0		& $x \in \mathbb{R}, \quad - \frac{\pi}{2} \le x \le \frac{\pi}{2}$	& Tilt angle				& rad\\
  lstat		& .true.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for statistics				& -\\
  dtav		& dtav\_glob	& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
  timeav	& timeav\_glob	& $x = n \cdot \text{dtav}, \quad n \in \mathbb{N}^*$	& Time interval for writing statistics		& s\\
\end{supertabular}
\end{center}

\subsection{Namelist NAMTIMESTAT}\label{par:timestat}
\begin{center}
	  \tablefirsthead{
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tablehead{
        \multicolumn{5}{l}{\small \it Continued from previous page}\\
        \multicolumn{5}{c}{}\\
        \multicolumn{1}{c}{Option} & \multicolumn{1}{c}{Default} & \multicolumn{1}{c}{Possible values} & \multicolumn{1}{c}{Description} & \multicolumn{1}{c}{Unit}\\
        \hline &&&&\\
  }
  \tabletail{
        &&&&\\\hline
        \multicolumn{5}{c}{}\\
        \multicolumn{5}{r}{\small \it Continued on next page}\\
  }
  \tablelasttail{
        &&&&\\\hline
  }
\begin{supertabular}{|l|p{2cm}|p{4cm}|p{6cm}|l|}
  ltimestat	& .false.	& $x\in\{\text{.false.},\text{.true.}\}$	& Switch for calculation of time series		& -\\
  dtav		& dtav\_glob	& $x = n \cdot \text{dtmax}, \quad n \in \mathbb{N}^*$	& Time interval for sampling of statistics	& s\\
  & & & &\\
  iblh\_var & -1	& $x\in\{-1,-2,-3\}$	& \parbox{6cm}{Flag for the variable used to calculate boundary-layer height: \\
  $-1$ = virtual pot. temp. $\theta_v$	\\
  $-2$ = liquid water pot. temp. $\theta_l$ \\
  $-3$ = total humidity $q_t$		} 	& - \\
  & & & &\\
  iblh\_meth & 2	& $x\in\{1,2,3\}$	& \parbox{6cm}{Flag for the method used to calculate boundary-layer height: \\
  $1$ = use flux of selected variable\\
  $2$ = use gradient of selected variable\\
  $3$ = use a threshold (auto or user specified)} 	& - \\
  & & & &\\
  blh\_thres	& $-1$	& $x \in \mathbb{R}, \quad x \ge 0$	& Threshold for the selected variable, used only for iblh\_thres method	& K or kg kg$^{-1}$\\
  blh\_nsamp	& 4		& $x \in \mathbb{N}^*, \quad x \le \text{kmax}$	& Number of levels to integrate over	& -\\
\end{supertabular}
\end{center}

\bibliographystyle{plainnat}
\bibliography{literaturenam}

\end{document}
